材料导报
材料導報
재료도보
MATERIALS REVIEW
2009年
24期
53-56
,共4页
杨艳%高惠临%张骁勇%吉玲康%庄传晶
楊豔%高惠臨%張驍勇%吉玲康%莊傳晶
양염%고혜림%장효용%길령강%장전정
X100管线钢%延迟加速冷却%组织%性能
X100管線鋼%延遲加速冷卻%組織%性能
X100관선강%연지가속냉각%조직%성능
X100 pipeline steel%delay accelerated cooling%microstructure%properties
采用热模拟技术、显微分析方法和力学性能测试等手段,研究了X100管线钢在延迟加速冷却工艺条件下的组织与性能的变化规律.结果表明,通过初始冷却温度为620℃的延迟加速冷却,试验钢X100的显微组织为复相(BF+GF),具有优良的强韧特性.在延迟加速冷却过程中,随初始冷却温度的降低,BF的体积分数减小,导致材料强韧性降低.
採用熱模擬技術、顯微分析方法和力學性能測試等手段,研究瞭X100管線鋼在延遲加速冷卻工藝條件下的組織與性能的變化規律.結果錶明,通過初始冷卻溫度為620℃的延遲加速冷卻,試驗鋼X100的顯微組織為複相(BF+GF),具有優良的彊韌特性.在延遲加速冷卻過程中,隨初始冷卻溫度的降低,BF的體積分數減小,導緻材料彊韌性降低.
채용열모의기술、현미분석방법화역학성능측시등수단,연구료X100관선강재연지가속냉각공예조건하적조직여성능적변화규률.결과표명,통과초시냉각온도위620℃적연지가속냉각,시험강X100적현미조직위복상(BF+GF),구유우량적강인특성.재연지가속냉각과정중,수초시냉각온도적강저,BF적체적분수감소,도치재료강인성강저.
The influence of delay accelerated cooling process in a X100 pipeline steel is investigated by means of thermal simulation technique,microscopic analysis method and mechanical property testing.The results show that when the original cooling temperature is 620℃to delay accelerated cooling,the microstrueture of X100 trial steel is mainly made up of bainitie ferrit(BF)and granular ferrit(GF)which can bring excellent strength and toughness.In the delay accelerated cooling process,with the decrease of original cooling temperature,the strength and toughness of material decrease because of bainitic ferrit(BF)volume percent decreasing.
